Limb sounders tracking topographic gravity wave activity from the stratosphere to the ionosphere around midlatitude Andes

Alexander P.; de la Torre A.; Schmidt T.Llamedo P.Hierro R.

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Limb sounders tracking topographic gravity wave activity from the stratosphere to the ionosphere around midlatitude Andes

机译：Limb sounders tracking topographic gravity wave activity from the stratosphere to the ionosphere around midlatitude Andes

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abstract_textpSeveral studies have shown that the surroundings of the highest Andes mountains at midlatitudes in the Southern Hemisphere exhibit gravity waves (GWs) generated by diverse sources which may traverse the troposphere and then penetrate the upper layers if conditions are favorable. There is a specific latitude band where that mountain range is nearly perfectly aligned with the north-south direction, which favors the generation of wavefronts parallel to this orientation. This fact may allow an optimization of procedures to identify topographic GW in some of the observations. We analyze data per season to the east and west of these Andes latitudes to find possible significant differences in GW activity between both sectors. GW effects generated by topography and convection are expected essentially on the eastern side. We use satellite data from two different limb sounding methods: the Global Positioning System radio occultation (RO) technique and the Sounding of the Atmosphere using Broadband Emission Radiometry instrument, which are complementary with respect to the height intervals, in order to study the effects of GW from the stratosphere to the ionosphere. Activity becomes quantified by the GW average potential energy in the stratosphere and mesosphere and by the electron density variance content in the ionosphere. Consistent larger GW activity on the eastern sector is observed from the stratosphere to the ionosphere (night values). However, this fact remains statistically significant at the 90 significance level only during winter, when GWs generated by topography dominate the eastern sector. On the contrary, it is usually assumed that orographic GWs have nearly zero horizontal phase speed and will therefore probably be filtered at some height in the neutral atmosphere. However, this scheme relies on the assumption that the wind is uniform and constant. Our results also suggest that it is advisable to separate night and day cases to study GWs in the ionosphere, as it is more difficult to find significant statistical differences during daytime. This may happen because perturbations induced by GWs during daytime are more likely to occur in a disturbed environment that may hinder the identification of the waves./p/abstract_text

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《Journal of geophysical research》 |2015年第10期|9014-9022|共9页
作者
Alexander P.; de la Torre A.; Schmidt T.Llamedo P.Hierro R.;
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作者单位

Consejo Nacl Invest Cient & Tecn, Inst Fis Buenos Aires, RA-1428 Buenos Aires, DF, Argentina;

Univ Austral, Fac Ingn, Pilar, Argentina;

GFZ German Res Ctr Geosci, Helmholtz Ctr Potsdam, Potsdam, Germany;

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正文语种英语
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gravity waves; RADIO OCCULTATION DATA; MIDDLE-ATMOSPHERE; THERMOSPHERE; CLIMATOLOGY; CONVECTION; HEIGHTS;

Limb sounders tracking topographic gravity wave activity from the stratosphere to the ionosphere around midlatitude Andes

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